阅读说明：本技术 钓鱼用绕线轮 (Coiling wheel for fishing ) 是由 安田悠 于 2021-01-27 设计创作，主要内容包括：提供钓鱼用绕线轮,具有能够基于卷筒的旋转状态或离合器的状态维持功耗少的状态的控制部的钓鱼用绕线轮。本发明的一个实施方式的钓鱼用绕线轮构成为具有卷筒、电源、控制部、离合器、离合器状态检测部,该控制部切换功耗多的第1状态和功耗比该第1状态少的第2状态,在该离合器状态检测部检测出该离合器的断开状态的情况下,从该第2状态切换到该第1状态。(Provided is a fishing reel having a control unit capable of maintaining a state of low power consumption based on the rotation state of a spool or the state of a clutch. A fishing reel according to one embodiment of the present invention is configured to include a spool, a power supply, a control unit, a clutch, and a clutch state detection unit, wherein the control unit switches between a 1 st state in which power consumption is high and a 2 nd state in which power consumption is lower than the 1 st state, and when the clutch state detection unit detects an off state of the clutch, the control unit switches from the 2 nd state to the 1 st state.)

1. A fishing reel is characterized in that,

the fishing reel comprises a spool, a power supply, a control unit, a clutch, and a clutch state detection unit,

the control section switches between a 1 st state in which power consumption is large and a 2 nd state in which power consumption is smaller than that in the 1 st state,

when the clutch state detection unit detects the off state of the clutch, the 2 nd state is switched to the 1 st state.

2. A fishing reel according to claim 1,

when the clutch state detection unit detects the engaged state of the clutch, the 1 st state is switched to the 2 nd state.

3. A fishing reel is characterized in that,

the fishing reel comprises a spool, a power supply, a control unit, and a spool state detection unit for detecting the rotation state of the spool,

the control section switches between a 1 st state in which power consumption is large and a 2 nd state in which power consumption is smaller than that in the 1 st state,

when the spool state detection unit detects the forward rotation of the spool, the 2 nd state is switched to the 1 st state.

4. A fishing reel according to claim 3,

when the spool state detection unit detects reverse rotation of the spool, the 1 st state is switched to the 2 nd state.

5. A fishing reel is characterized in that,

the fishing reel comprises a spool, a power supply, a control unit, and a spool state detection unit for detecting the rotation state of the spool,

the control section switches between a 1 st state in which power consumption is large and a 2 nd state in which power consumption is smaller than that in the 1 st state,

when the drum state detector detects that the drum is rotating at a speed of 500rpm or more, the 2 nd state is switched to the 1 st state.

6. A fishing reel according to claim 5,

when the drum state detector detects that the drum is rotating at a speed less than 500rpm, the 1 st state is switched to the 2 nd state.

7. A fishing reel according to any of claims 1 to 6,

the fishing reel has a flying distance measuring unit, and the control unit switches the state of power consumption of the flying distance measuring unit, wherein the 1 st state is a measurable state, and the 2 nd state is a measurement stop state.

8. A fishing reel according to any of claims 1 to 7,

the fishing reel has a communication processing unit, and the control unit switches the power consumption state of the communication processing unit, wherein the 1 st state is a communication-enabled state, and the 2 nd state is a communication-disabled state.

9. A fishing reel according to any of claims 1 to 8,

the fishing reel has a brake unit of the spool, and the control unit switches the power consumption state of the brake unit, wherein the 1 st state is a state in which the braking force can be changed, and the 2 nd state is a state in which the braking force cannot be changed.

10. A fishing reel according to any of claims 1 to 9,

the fishing reel has a drag brake unit for the spool, and the control unit switches the power consumption state of the drag brake unit, wherein the 1 st state is a state in which drag force can be generated, and the 2 nd state is a state in which no drag force is generated.

11. A fishing reel according to any of claims 1, 2, 7 to 10,

the fishing reel includes:

a reel;

a main body portion that supports the spool;

a handle disposed at one side of the main body;

a detection part extending to the other side of the main body part according to the operation of the clutch; and

a detected part state detecting part for detecting the state of the detected part,

the power supply is provided on the other side of the main body and supplies power to the detected part state detection part.

Technical Field

The present invention relates to a fishing reel having a control unit that can be controlled based on the state of a clutch or brake unit.

Background

Conventionally, various fishing reels have been known which can control switching of a clutch and braking of a spool.

As such a fishing reel, for example, patent document 1 discloses a fishing reel including: a spool rotatably supported on the reel body; a clutch mechanism that transmits or cuts off winding power to the spool; a clutch operation motor connected to the clutch mechanism via a power transmission mechanism for switching the clutch mechanism between a fishing line winding state and a fishing line discharging state; a detection mechanism that detects an engaged/disengaged state of the clutch; and a braking unit that brakes rotation of the spool when the clutch is switched from the engaged state to the disengaged state.

Further, patent document 2 discloses an electric fishing reel including: a clutch unit that switches a spool rotatably supported by the roller main body to a wound state and a spool free state; a spool state detection unit that detects a spool free state of the spool and outputs a spool free state signal when the spool is in the spool free state; a line length calculating means for calculating a line length based on a pull-out rotation signal and a winding rotation signal from a rotating body that rotates by the fishing line wound on a reel being fed out and wound; a display unit that displays the wire length calculated by the wire length calculation unit; a solenoid linked to the clutch unit for switching the clutch unit in a free state of the spool to a winding state; a solenoid operating unit that outputs a solenoid operating signal to the solenoid when the spool free state signal from the spool state detecting unit is input; a solenoid non-operation detection unit which inputs a solenoid operation signal and outputs a solenoid non-operation signal when a drum free state signal is input after a predetermined time has elapsed after the solenoid operation signal is input; and a notification unit which inputs the solenoid non-operation signal and outputs a notification signal to the notifier.

Patent document 1: japanese laid-open patent publication No. H05-168380

Patent document 2: japanese examined patent publication (Kokoku) No. 08-001666

However, in the configuration of patent document 1, although the braking force of the spool can be electrically controlled depending on the state of the clutch mechanism, it is necessary to maintain the state of supplying power for braking the spool regardless of the state of the clutch mechanism, and there is a problem that it is difficult to reduce power consumption.

In the configuration of patent document 2, although switching of the clutch mechanism can be controlled in accordance with the state of the spool, it is necessary to maintain the state of supplying power to the solenoid operating unit regardless of the state of the spool, and there is a problem that it is difficult to reduce power consumption in the same manner.

Disclosure of Invention

The present invention has been made in view of the above circumstances, and an object thereof is to provide a fishing reel having a control unit capable of maintaining a state of low power consumption based on a rotation state of a spool or a state of a clutch. Objects other than these of the present invention will become apparent by referring to the entire specification.

A fishing reel according to one embodiment of the present invention is configured to include a spool, a power supply, a control unit, a clutch, and a clutch state detection unit, wherein the control unit switches between a 1 st state in which power consumption is high and a 2 nd state in which power consumption is lower than the 1 st state, and when the clutch state detection unit detects an off state of the clutch, the control unit switches from the 2 nd state to the 1 st state.

In the fishing reel according to one embodiment of the present invention, the clutch state detection unit is configured to switch from the 1 st state to the 2 nd state when detecting the engaged state of the clutch.

A fishing reel according to one embodiment of the present invention is configured to include a spool, a power supply, a control unit, and a spool state detection unit that detects a rotation state of the spool, wherein the control unit switches between a 1 st state in which power consumption is high and a 2 nd state in which power consumption is lower than the 1 st state, and when the spool state detection unit detects a forward rotation of the spool, the control unit switches from the 2 nd state to the 1 st state.

In the fishing reel according to one embodiment of the present invention, the spool state detection unit is configured to switch from the 1 st state to the 2 nd state when the spool reverse rotation is detected.

A fishing reel according to one embodiment of the present invention includes a spool, a power source, a control unit, and a spool state detection unit that detects a rotation state of the spool, wherein the control unit switches between a 1 st state in which power consumption is high and a 2 nd state in which power consumption is lower than the 1 st state, and when the spool state detection unit detects that the spool rotates at a rotation speed of 500rpm or more, the control unit switches from the 2 nd state to the 1 st state.

In the fishing reel according to one embodiment of the present invention, the spool state detection unit is configured to switch from the 1 st state to the 2 nd state when the spool is rotated at a rotation speed of less than 500 rpm.

In a fishing reel according to an embodiment of the present invention, the fishing reel includes a flying distance measuring unit, and the control unit switches the state of power consumption of the flying distance measuring unit, wherein the 1 st state is a measurable state, and the 2 nd state is a measurement stop state.

A fishing reel according to one embodiment of the present invention has a communication processing unit, and the control unit switches the power consumption state of the communication processing unit, wherein the 1 st state is a communication-enabled state, and the 2 nd state is a communication-disabled state.

A fishing reel according to one embodiment of the present invention has a brake unit of the spool, and the control unit switches the power consumption state of the brake unit, wherein the 1 st state is a state in which the braking force can be changed, and the 2 nd state is a state in which the braking force cannot be changed.

A fishing reel according to one embodiment of the present invention has a drag brake unit of the spool, and the control unit switches the power consumption state of the drag brake unit, wherein the 1 st state is a state in which drag force can be generated, and the 2 nd state is a state in which no drag force is generated.

A fishing reel according to one embodiment of the present invention includes: a reel; a main body portion that supports the spool; a handle disposed at one side of the main body; a detection part extending to the other side part of the main body part according to the operation of the clutch; and a detected part state detection part for detecting the state of the detected part, wherein the power supply is arranged at the other side part of the main body part and supplies power to the detected part state detection part.

According to the above embodiment, by providing the control unit capable of maintaining a state of low power consumption in accordance with the rotation state of the spool or the state of the clutch, it is possible to significantly reduce power consumption.

Drawings

Fig. 1 is a diagram illustrating a fishing reel 1 according to an embodiment of the present invention.

Fig. 2 is a diagram illustrating the operation of the control unit of the fishing reel 1 according to one embodiment of the present invention.

Fig. 3 is a diagram illustrating the operation of the control unit of the fishing reel 1 according to one embodiment of the present invention.

Fig. 4 is a diagram illustrating the operation of the control unit of the fishing reel 1 according to one embodiment of the present invention.

Fig. 5 is a diagram illustrating the state of power consumption of the fishing reel 1 according to one embodiment of the present invention.

Fig. 6 is a diagram illustrating the state of power consumption of the fishing reel 1 according to one embodiment of the present invention.

Fig. 7 is a diagram illustrating the state of power consumption of the fishing reel 1 according to one embodiment of the present invention.

Fig. 8 is a diagram illustrating the state of power consumption of the fishing reel 1 according to one embodiment of the present invention.

Fig. 9 is a diagram illustrating a fishing reel 1 according to an embodiment of the present invention.

Fig. 10 is a view for explaining a procedure of throwing and collecting a fishing tackle such as a lure using a reel including the fishing reel 1 according to one embodiment of the present invention.

Fig. 11 is a diagram illustrating a fishing reel 1 according to an embodiment of the present invention.

Description of the reference symbols

1: a fishing reel; 2: a reel; 3: a power source; 4: a control unit; 5: a clutch; 6: a clutch state detection unit; 7: a reel state detection unit; 8: a flying distance measuring part; 9: a communication processing unit; 10: a brake section; 11: a drag brake section; 12: a main body portion; 13: a handle; 14: a detected part; 15: a detected part state detection part; 16: a side portion; 17: the other side part; 18: a transmission member; 19: a fishing line guide part; x: the other lateral direction.

Detailed Description

Hereinafter, embodiments of the locking device of the present invention will be specifically described with reference to the drawings. Structures common to a plurality of drawings are given the same reference numerals in the plurality of drawings. It should be noted that, for the sake of convenience of explanation, the drawings are not necessarily drawn to precise scale.

First, an example of a procedure for throwing and collecting fishing gear such as baits using a general reel including the reel will be described with reference to fig. 10. First, as shown in fig. 10 (a), after the lure 20 is adjusted to a predetermined length from the rod end by the operating member 3, the clutch 5 is set to the off state and the reel free state is set. At this time, the reel 2 is pressed with a thumb so that the fishing line does not come off due to the weight of the lure 20.

Then, as shown in fig. 10 (b) to (d), the fishing rod is swung to give the lure 20 an initial speed. Next, as shown in fig. 10 (e), when the thumb is separated from the reel 2 at a timing when the speed and the direction of the bait are appropriate, the bait can be thrown.

As shown in fig. 10 (g), after throwing, the lure starts to decelerate due to tension and air resistance from the fishing line. On the other hand, the reel 2 starts to rotate reversely due to the tension from the fishing line. When the fishing line is released at a speed equal to the flying speed of the lure, the reel 2 reaches the maximum rotation speed, and the fishing line loses tension. The bait then continues to stall due to air resistance, etc. At this time, if the spool 2 continues to rotate at a high speed due to inertia, the fishing line is discharged at a speed exceeding the flying speed of the lure. This causes excessive fishing line release and causes fishing line entanglement in the reel. To avoid this, a predetermined braking force is applied to the spool 2 by the braking unit 10.

Also, the height of the bait falls sufficiently to fall into the water. At this time, if the braking force is too large, the distance over which the lure can be thrown becomes short. If the braking force is too small, the wire is loosened and cannot be wound or unwound properly. The appropriate value of the braking force varies depending on not only the size of the lure and the length of the rod but also various influences such as the throwing method and the natural environment such as wind.

When the lure falls into the water and sinks to a predetermined depth, the clutch 5 is operated to be in the engaged state, whereby the reel 2 can be operated (retracted) by the handle 13. Thereby, the fish bite. Depending on the winding speed at this time, the fishing result may vary. In this state, when a fish or an obstacle applies a tension equal to or greater than a predetermined value to the fishing line, the spool 2 is caused to idle by the drag brake 11, thereby preventing the fishing line from being broken.

First, a fishing reel 1 according to an embodiment of the present invention will be described with reference to fig. 1 and 2. As shown in the drawing, a fishing reel 1 according to one embodiment of the present invention includes a spool 2, a power supply 3, a control unit 4, a clutch 5, and a clutch state detection unit 6, wherein the control unit 4 is configured to switch between a 1 st state in which power consumption is high and a 2 nd state in which power consumption is low compared to the 1 st state, and when the clutch state detection unit 6 detects an off state of the clutch 5 (S1), the clutch state detection unit switches from the 2 nd state to the 1 st state (S2). Here, for convenience, the initial state (S0) is set to the 2 nd state with less power consumption.

In the fishing reel 1 according to the embodiment of the present invention, when the clutch state detector 6 detects the engaged state of the clutch 5 (S3), the 1 st state is switched to the 2 nd state (S4). As described above, when the user winds the fishing line by the handle operation, the clutch is brought into the engaged state. When the user throws a fishing tackle such as a lure, the clutch is in an off state. In this way, by detecting the clutch state, the operation performed by the user can be estimated, and therefore, the process can be switched to the process corresponding to the state.

According to the fishing reel 1 of one embodiment of the present invention, by providing the control unit 4 that can maintain a state of low power consumption based on the state of the clutch 5, it is possible to achieve a significant reduction in power consumption.

(general example: switching to sleep mode according to the rotation direction of the spool)

A fishing reel 1 according to an embodiment of the present invention will be described with reference to fig. 1 and 3. As shown in the drawing, a fishing reel 1 according to one embodiment of the present invention includes a spool 2, a power supply 3, a control unit 4, and a spool state detection unit 7 that detects a rotation state of the spool 2, wherein the control unit 4 switches between a 1 st state in which power consumption is high and a 2 nd state in which power consumption is lower than the 1 st state, and when the spool state detection unit 7 detects a forward rotation of the spool 2 (step R1), the spool 2 switches from the 2 nd state to the 1 st state (R2). Here, for convenience, the initial state (R0) is set to the 2 nd state with less power consumption.

In the fishing reel 1 according to one embodiment of the present invention, the spool state detection unit 7 is configured to switch from the 1 st state to the 2 nd state (R4) when detecting reverse rotation of the spool 2 (R3).

According to the fishing reel 1 of one embodiment of the present invention, by providing the control unit 4 capable of maintaining a state of low power consumption based on the rotation state of the spool 2, it is possible to significantly reduce power consumption.

A fishing reel 1 according to an embodiment of the present invention will be described with reference to fig. 1 and 4. As shown in the drawing, a fishing reel 1 according to one embodiment of the present invention includes a spool 2, a power supply 3, a control unit 4, and a spool state detection unit 7 that detects a rotation state of the spool 2, wherein the control unit 4 switches between a 1 st state in which power consumption is high and a 2 nd state in which power consumption is low compared to the 1 st state, and the spool state detection unit 7 is configured to switch from the 2 nd state to the 1 st state (U2) when detecting that the spool 2 rotates at a rotation speed of 500rpm or more (U1). Here, for convenience, the initial state (U0) is the 2 nd state with less power consumption.

In the fishing reel 1 according to one embodiment of the present invention, the spool state detection unit 7 is configured to switch from the 1 st state to the 2 nd state (U4) when detecting that the spool 2 is rotating at a speed of less than 500rpm (U3).

According to the fishing reel 1 of one embodiment of the present invention, by providing the control unit 4 capable of maintaining a state of low power consumption based on the rotation state of the spool 2, it is possible to significantly reduce power consumption.

Next, a fishing reel 1 according to an embodiment of the present invention will be described with reference to fig. 1 and 5. As shown in the drawing, the fishing reel 1 according to one embodiment of the present invention includes a flying distance measuring unit 8, and the control unit 4 switches the power consumption state of the flying distance measuring unit 8, wherein the 1 st state is a measurable state, and the 2 nd state is a measurement stop state.

Since the flying distance can be measured at the time of throwing, as described above, by setting the flying distance measuring unit to the measurable state when the clutch is in the off state and setting the flying distance measuring unit to the measurement stop state when the clutch is in the on state, it is possible to significantly reduce power consumption. And, the reel rotates in the reverse direction when thrown. Therefore, by switching between the measurement enabled state and the measurement disabled state according to the rotation direction of the drum, it is possible to significantly reduce power consumption. Also, the drum typically rotates at a higher speed when thrown than when retrieved. Therefore, by setting the rotation speed to be in a measurable state at a predetermined or higher rotation speed, power consumption can be greatly reduced.

Next, a fishing reel 1 according to an embodiment of the present invention will be described with reference to fig. 1 and 6. As shown in the drawing, the fishing reel 1 according to one embodiment of the present invention includes a communication processing unit 9, and the control unit 4 switches the power consumption state of the communication processing unit 9, wherein the 1 st state is a communication-enabled state and the 2 nd state is a communication-disabled state.

In general, when the communication processing unit 9 performs communication processing simultaneously with other processing such as flight distance measurement and braking force adjustment, there is a high possibility that a problem such as communication failure occurs. Therefore, it is preferable to perform the processing at a different timing from those of the other processing. When the braking force is adjusted and the flying distance is measured at the time of throwing, the communication is enabled when the clutch is in the engaged state, and the communication is disabled when the clutch is in the disengaged state. This reduces the possibility of performing communication processing when performing other processing. When the above-described processing is not performed at the time of throwing and the measurement of the retrieved data and the electronic adjustment of the drag force are performed at the time of retrieval, the communication disabled state is set at the time of the clutch engaged state and the communication enabled state is set at the time of the clutch disengaged state. This reduces the possibility of performing communication processing when performing other processing.

Next, a fishing reel 1 according to an embodiment of the present invention will be described with reference to fig. 1 and 7. A fishing reel 1 according to one embodiment of the present invention includes a brake unit 10 of a spool 2, and the control unit 4 switches the power consumption state of the brake unit 10, wherein the 1 st state is a state in which the braking force can be changed, and the 2 nd state is a state in which the braking force cannot be changed. As described above, the braking force needs to be applied to the reel 2 at the time of throwing and is not required at the time of retrieving. Therefore, when the brake unit 10 selects a type in which the braking force can be electronically adjusted, electric power is required for adjusting the braking force, but the adjustment is not possible when the clutch is in the engaged state and is possible when the clutch is in the disengaged state, so that the power consumption can be greatly reduced.

Next, a fishing reel 1 according to an embodiment of the present invention will be described with reference to fig. 1 and 8. The fishing reel 1 according to one embodiment of the present invention includes the drag brake unit 11 of the spool 2, and the control unit 4 switches the power consumption state of the drag brake unit 11, wherein the 1 st state is a state in which drag force can be generated, and the 2 nd state is a state in which no drag force is generated. As described above, the braking force needs to be adjusted at the time of retrieval, and there is no problem even in a state where there is no braking force at the time of throwing. Therefore, the drag force can be generated in the clutch engaged state, and the drag force is not generated in the clutch disengaged state. This can significantly reduce power consumption.

Next, a fishing reel 1 according to an embodiment of the present invention will be described with reference to fig. 9 and 11. As schematically shown in fig. 9, a fishing reel 1 according to one embodiment of the present invention includes a spool 2, a main body 12 supporting the spool 2, a lever 13 provided on one side portion 16 of the main body 12, a transmission member 18 transmitting a movement of the lever to the spool, a clutch operating member 51 and a clutch cam 52 constituting the clutch 5, a detected portion 14 extending in the direction X toward the other side portion of the main body 12 in accordance with an operation of the clutch 5, and a detected portion state detecting portion 15 detecting a state of the detected portion 14, wherein the power source 3 is provided on the other side portion 17 of the main body 12 and configured to supply power to the detected portion state detecting portion 15.

When the user operates the clutch operating member 51, the clutch cam 52 performs a rotational motion substantially coaxial with the spool 2. By this rotational movement, the cam moves a part of the transmission member, and can switch whether or not the transmission from the handle 13 to the drum 2 is performed. The detected portion may be provided in a part of the clutch operating member 51 as shown in fig. 15A. In some reels, the swinging barrel 14 is rotated in conjunction with the operation of the clutch cam 52 in order to rotate the fishing line guide. In this case, as shown in fig. 9, a detection target portion may be provided in a part of the fishing line guide portion 19.

Here, as the detection target portion 14, for example, a light shielding plate provided at an end portion of the swing cylinder may be used, but the present invention is not limited thereto. The detection target portion state detection unit 15 may be, for example, a light-transmitting photoelectric sensor, but is not limited thereto. The detection section 14 may be a reflective photosensor reflector. In addition, a combination of a magnet and a magnetic sensor may be used instead of these. In addition, a combination of the protrusion and the contact switch may be used instead of these.

Conventionally, in order to interlock the clutch return operation and the handle operation, the clutch mechanism is generally disposed on the handle side, the clutch detection mechanism is also disposed on the handle side, and the backlash preventing brake is often disposed on the handle side where the space is large. Therefore, since the brake and the clutch detection mechanism are disposed on the opposite side with the spool interposed therebetween, it is not easy to electrically and mechanically connect them.

In contrast, in the fishing reel 1 according to one embodiment of the present invention, the power supply and the clutch detection unit can be disposed on the opposite side of the handle side, and therefore the overall size of the reel can be reduced.

The dimensions, materials, and arrangements of the respective constituent elements described in the present specification are not limited to those explicitly described in the embodiments, and the respective constituent elements may be modified to have any dimensions, materials, and arrangements that can be included in the scope of the present invention. Note that, components not explicitly described in the present specification may be added to the embodiments described above, or a part of the components described in each embodiment may be omitted.